Indirect searches in the PAMELA and Fermi...
Transcript of Indirect searches in the PAMELA and Fermi...
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 1
Indirect searches in thePAMELA and Fermi era
Aldo MorselliINFN,
Sezione di Roma Tor Vergata Springel, Wang, Volgensberger, Ludlow, Jenkins, Helmi, Navarro, Frenk & White ‘08
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 2
PAMELA:Cosmic-Ray Antiparticle
Measurements: Antiprotons
fd: Clumpiness factors neededto disentangle a neutralinoinduced component in theantiproton flux
A.Lionetto, A.Morselli, V.ZdravkovicJCAP09(2005)010 [astro-ph/0502406]
an example in mSUGRA5 years simulation
f = the dark matter fractionconcentrated in clumpsd = the overdensity due to aclump with respect to the localhalo density
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 3
Supersymmetry introduces freeparameters:
In the MSSM, with Grand Unification assumptions, the masses and couplings of the SUSY particles as
well as their production cross sections, are entirely described once 5 parameters are fixed:
• M1/2 the mass parameter of supersymmetric partners of gauge fields (gauginos)
• µ the higgs mixing parameters that appears in the neutralino and chargino mass matrices
• m0 the common mass for scalar fermions at the GUT scale
• A the trilinear coupling in the Higgs sector
• tang β = v2 / v1 = <H2> / <H1> the ratio between the two vacuum expectation values of theHiggs fields
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 4
tg(β)=55, sign(µ)=+1
YES
NOBackground
Signal
Signal and Background are separated ?mSUGRA
Signal
Background
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 5
tg(β)=55, sign(µ)=+1
YES
NOBackground
Signal
Signal and Background are separated ?
YES
YES
YESYES YES
YES
YES
YES
YES
YESYES
YESYES
NO
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NONO
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New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 6
Background
Signal
Signal
Background
mSUGRA tg(β)=55, sign(µ)=+1
YES
NO
Signal and Background are separated ?
YES
YES
YESYES YES
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YESYES
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New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 7
antip
roto
n / p
roto
n Antiproton-Proton Ratio
• PAMELA data arxiv:0810.4994
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 8
Antiproton-Proton Ratio
Diffuse and ConventionPropagation ModelUpper and lower bounds A.Lionetto, A.Morselli, V.ZdravkovicJCAP09 (2005) 010 [astro-ph/0502406]
• PAMELA data arxiv:0810.4994
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 9
PAMELA WIMP Detection Sensitivity
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Fermi PAMELA and LHC WIMP Detection Sensitivity
Fermi sensitivity in five years for a Navarro Frank and White (NFW) halo profile
arX
iv:0
811.
3526
Region that Fermi will probe for boost factor 1
Fermi
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 11
larger valuesof tg(B) giveslarger signalsboth inantiprotonsand gammas
PAMELA WIMP Detection SensitivitymSUGRA
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Positron ratio
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 13
Positron ratio
DC model A.Lionetto, A.Morselli, V.Zdravkovic JCAP09 (2005) 010 [astro-ph/0502406]
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 14
electron + positron flux excess at about 300-600 GeVby ATIC and PPB-BETS
ATIC
PPB-BETS
emulsion chambers
X
Nature 456, 362, 2008
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 15
electron + positron flux excess at about 300-600 GeVby ATIC and PPB-BETS and HESS results
ATIC
PPB-BETS
emulsion chambers
X
Nature 456, 362, 2008 H.E.S.S. Coll. arXiv:0811.3894
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arXiv:0902.0071 PAMELA/ATIC anomaly from the meta-stable extra dark matter component and the leptophilicYukawa interaction Bumseok Kyae
1. arXiv:0901.3474 Cosmic Ray Positrons from Cosmic Strings Robert Brandenberger, Yi-Fu Cai, Wei Xue, Xinmin Zhang2. arXiv:0901.2556 Positrons and antiprotons from inert doublet model dark matter Emmanuel Nezri, Michel H.G. Tytgat,
Gilles Vertongen3. arXiv:0901.1520 On the cosmic electron/positron excesses and the knee of the cosmic rays - a key to the 50 years' puzzle?
Hong-Bo Hu, Qiang Yuan, Bo Wang, Chao Fan , Jian-Li Zhang , Xiao-Jun Bi4. arXiv:0812.4851 A Gamma-Ray Burst for Cosmic-Ray Positrons with a Spectral Cutoff and LineKunihito Ioka5. arXiv:0812.4555 Is the PAMELA Positron Excess Winos? Phill Grajek, Gordon Kane, Dan Phalen, Aaron Pierce, Scott
Watson6. arXiv:0812.4457 Dissecting Pamela (and ATIC) with Occam's Razor: existing, well-known Pulsars naturally account for
the "anomalous" Cosmic-Ray Electron and Positron Data Stefano Profumo7. arXiv:0812.4272 Study of positrons from cosmic rays interactions and cold dark matter annihilations in the galactic
environment Roberto A. Lineros thesis8. arXiv:0812.3895 Gamma-ray and Radio Constraints of High Positron Rate Dark Matter Models Annihilating into New
Light Particles Lars Bergstrom, Gianfranco Bertone, Torsten Bringmann, Joakim Edsjo, Marco Taoso9. arXiv:0812.0219 Neutrino Signals from Annihilating/Decaying Dark Matter in the Light of Recent Measurements of
Cosmic Ray Electron/Positron Fluxes Junji Hisano, Masahiro Kawasaki, Kazunori Kohri, Kazunori Nakayama10. arXiv:0811.0477 High-energy Cosmic-Ray Positrons from Hidden-Gauge-Boson Dark Matter Chuan-Ren Chen,
Fuminobu Takahashi, T. T. Yanagida11. arXiv:0811.3526 Status of indirect searches in the PAMELA and Fermi era Aldo Morselli, Igor Moskalenko
some articles about the positron excess
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12. arXiv:0811.0250 Cosmic-Ray Positron from Superparticle Dark Matter and the PAMELA Anomaly KojiIshiwata, Shigeki Matsumoto, Takeo Moroi13. arXiv:0810.5344 The PAMELA Positron Excess from Annihilations into a Light Boson Ilias Cholis, Douglas P.Finkbeiner, Lisa Goodenough, Neal Weiner14. arXiv:0810.4846 Possible causes of a rise with energy of the cosmic ray positron fraction Pasquale Dario Serpico15. arXiv:0810.2784 TeV Gamma Rays from Geminga and the Origin of the GeV Positron Excess Hasan Yuksel ,Matthew D. Kistler Todor Stanev16. arXiv:0810.1892 Positron/Gamma-Ray Signatures of Dark Matter Annihilation and Big-Bang NucleosynthesisJunji Hisano, Masahiro Kawasaki, Kazunori Kohri, Kazunori Nakayama17. arXiv:0810.1527 Pulsars as the Sources of High Energy Cosmic Ray Positrons Dan Hooper, Pasquale Blasi,Pasquale Dario Serpico18. arXiv:0809.5268 Galactic secondary positron flux at the Earth T. Delahaye, F. Donato , N. Fornengo , J. Lavalle , R.Lineros , P. Salati , R. Taillet ,19. arXiv:0809.2601 Two dark matter components in N_{DM}MSSM and dark matter extension of the minimalsupersymmetric standard model and the high energy positron spectrum in PAMELA/HEAT data Ji-Haeng Huh, JihnE. Kim, Bumseok Kyae20. arXiv:0809.2491 On the 511 keV emission line of positron annihilation in the Milky Way N. Prantzos21. arXiv:0809.0792 Gamma rays and positrons from a decaying hidden gauge boson Chuan-Ren Chen, FuminobuTakahashi, T. T. Yanagida22. arXiv:0808.3867 Minimal Dark Matter predictions and the PAMELA positron excessMarco Cirelli, AlessandroStrumia23. arXiv:0808.3725 New Positron Spectral Features from Supersymmetric Dark Matter - a Way to Explain thePAMELA Data?Lars Bergstrom, Torsten Bringmann, Joakim Edsjo24. arXiv:0811.3744 Gamma-ray and radio tests of the e+e- excess from DM annihilations Gianfranco Bertone, MarcoCirelli, Alessandro Strumia, Marco Taoso
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 18
Positron ratio
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 19
Millisecond pulsars detected by Millisecond pulsars detected by FermiFermi
• Search for pulsations at radio period in first 4 months of FermiLAT data using radio ephemerides
• Detection of pulsations from 7 millisecond pulsars - 5 withhigh significance
• Confirmation of pulsations from PSR J0218+4232 but withlower significance Carmelo Sgrò
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 20
Fermi has found 12 previously unknown pulsars (orange). detected gamma-ray emissions from known radio pulsars (magenta, cyan) and from known or suspected gamma-ray pulsars identified by EGRET (green)
712
613 ( pulsing in Gamma-rays alone)
(known pulsars ~ 1800)
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 21
New Data is Forthcoming• PAMELA & FERMI (GLAST) (taking data in space);• ATIC-4 (had successful balloon flight,under analysis);• CREST (new balloon payload under development);• AMS-02 (launch date TBD);• CALET (proposed for ISS);• ECAL (proposed balloon experiment).
Electron Spectrum:
Positron / Electron Separation: PAMELA & AMS-02
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 22
5 years of GLAST LAT observation, clump at 100 pc, D0 = 1028 cm2/s
for a NFW DM distribution with boost factor of 5 and ρlocal = 0.4 GeV cm-3
E. A. Baltz, et al., JCAP07(2008)013, arXiv:0806.2911
Fermi measurements of the total lepton flux with large statistics will beable to distinguish a gradual change in slope with a sharp cutoff with highconfidence
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• The key to understanding the origin of theexcess in the ratio is the accuratemeasurement of positron and electron fluxesseparately.
• To confirm the DM signature, we should lookinto the signal in HE pbars (PAMELA) andgamma-rays and electron total flux
(Fermi (GLAST)).• If this is an astrophysical source of
positrons, it should be quite close and weshould probably be able to see it with Fermi.
RICAP 09
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 24
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 25
•213th AAS Meeting — Long Beach, CA.
205 Preliminary Fermi LAT Bright Sources
Crosses mark source locations, in Galactic coordinates.
Fermi Coll. Submitted to ApJS arXiv:0902.1340
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 26
205 Preliminary LAT Bright Sources -
Some Information
• EGRET on the Compton Observatory found fewer than 30 sources above10 σ in its lifetime.
• Typical 95% error radius is less than 10 arcmin. For the brightestsources, it is less than 3 arcmin. Improvements are expected.
• About 1/3 of the sources show definite evidence of variability.
• More than 30 pulsars are identified by gamma-ray pulsations.
• Over half the sources are associated positionally with blazars. Some ofthese are firmly identified as blazars by correlated multiwavelengthvariability.
• Over 40 sources have no obvious associations with known gamma-rayemitting types of astrophysical objects.
• Additional results on many of these sources in 213th AAS Meeting — LongBeach, CA.
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z = 0.1
24003 run
A galactic dark matter halo
Springel, Wang, Volgensberger, Ludlow,Jenkins, Helmi, Navarro, Frenk & White ‘08
1.1 billion particlesinside rvir
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Mare Nostrum simulation (with baryons)
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 29
Mare Nostrum simulation (without baryons)
preliminary
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 30
Mare Nostrum simulation (with baryons)
preliminary
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 31
Where should we look for WIMPswith FERMI ?
• Galactic center• Galactic satellites• Galactic halo• Extra-galactic
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 32
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 33
EGRET data & Susy models
~2 degrees around the galactic center
EGRET data
Annihilation channel W+W-
Mχ =80.3 GeV
background model(Galprop)WIMP annihilation (DarkSusy)Total Contribution
A.Morselli, A. Lionetto, A. Cesarini, F. Fucito, P. Ullio, astro-ph/0211327
Nb=1.82 1021
Nχ=8. 51 104
Typical Nχ values:NFW: Nχ = 104
Moore: Nχ = 9 106
Isotermal: Nχ = 3 101
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 34
~2 degrees aroundthe galactic center,2 years data
(Galprop)(one example from DarkSusy)
Fermi Expectation & Susy models
astro-ph/0305075A.Cesarini, F.Fucito, A.Lionetto, A.Morselli, P.Ullio, Astroparticle Physics, 21, 267-285, June 2004 [astro-ph/0305075]
Nb=1.82 1021
Nχ=8.51 104
Typical Nχ values:NFW: Nχ = 104
Moore: Nχ = 9 106
Isotermal: Nχ = 3 101
Annihilation channel W+W-
Mχ =80 GeV
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 35
Model independent results for the GC5 years ofoperations,truncatedNFW
Baltz et. al, JCAP07(2008)013 arXiv:0806.2911
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 36
Gamma-ray backgroundGalprop Conventional model
Optimized: a model based on arenormalized CR proton flux (to fitantiprotons) and a CR electron flux
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 37
The Galactic Diffuse Emission
• Spectra shown for mid-latitude range → GeV excess in this region of the sky is not confirmed.• Sources are not subtracted but are a minor component.• LAT errors are dominated by systematic uncertainties and are currently estimated to be ~10% →
this is preliminary.• EGRET data is prepared as in Strong, et al. 2004 with a 15% systematic error assumed to
dominate (Esposito, et al. 1999).• EG + instrumental is assumed to be isotropic and determined from fitting the data at |b| > 10°.• In order to use it for constraining DM one needs to understand the background model
uncertainties which is a non trivial problem ( we are working on that).
Galprop conventional modelGalprop conventional model
see talk of Guðlaugur Jóhannesson for the Fermi LAT collaboration
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 38
Model independent results for the GC5 years ofoperations,truncatedNFW
Baltz et. al, JCAP07(2008)013 arXiv:0806.2911
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 39
Model independent results for the GC
5 years ofoperations,truncatedNFW
after the FermiGalactic DiffuseEmission data
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 40
Model independent results for the Sagittarius
Baltz et. al, JCAP07(2008)013 arXiv:0806.2911
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 41
above EGRET observation
mWimp (GeV/c2)
< σ
v >
( 10
-26 c
m3 s
-1 )
channel bb at 3 σ, Moore profile
Not detectable by Fermi
detectable by GLAST( conventional and optimized GALPROP models assumptions)
detectable by Fermi
Model independent results for the Sagittarius Dwarft
after the FermiGalactic DiffuseEmission data
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 42
Optimized diffuse background and a 5σ line signal at 200 GeV
Optimized diffuse background
5σ signal at 200 GeV
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 43
con: conventional Galactic background model opt: Optimized Galactic background model
arXiv:0806.2911
5σ sensitivity contours to line signal (5 years)
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 44
Conclusion:• Astrophysics of cosmic rays and related topics is a
very dynamic field:expect many breakthroughs and discoveries soon !• Intermediate latitude -ray spectra can be explained by
cosmic-ray propagation models based on local cosmic-raynuclei and electron spectra. The EGRET GeV excess is notseen in this region of the sky with the Fermi LAT.
• Work to analyse and understand diffuse emission over theentire sky is in progress.
• Fermi has started to probe interesting regions ofthe supersymmetric parameter space.
More statistics and the high energy all -electronspectra will expand these regions.
New Horizons for Modern Cosmology, Dark Matter, February 9, 2009, Galileo Instiute, Firen Aldo Morselli, INFN Roma Tor Vergata 45
Ricap 09Roma International Conference on Astro-Particle physics atUniversity of Roma Tor Vergata - May 13-15, 2009
you are all invited
more results from PAMELA and FERMI will be presented
thank you for the attention !
http://ricap09.roma2.infn.it/